Dr. Peter M. Groffman

Microbial Ecologist | PhD, University of Georgia

Expertise
soil ecology, water quality

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Peter Groffman studies how microbial processes impact gas exchange - particularly nitrogen - between the soil and air. His work encompasses rural and urban ecosystems, and is primarily centered at two of the National Science Foundation’s Long Term Ecological Research sites located in Hubbard Brook, New Hampshire and Baltimore, Maryland.

As a result of climate change, forests in the northeastern US are experiencing reduced winter snow cover. This change leaves the forest soil exposed to subfreezing temperatures for extended periods. Without a layer of insulating snow, important biological activity that usually continues throughout the winter stops. Freezing damages tender tree roots. Increased winter rain washes nitrogen and phosphorus - nutrients critical to tree growth - out of the soil, threatening forest productivity and water quality. Bare soils produce more nitrous oxide and consume less methane - both potent greenhouse gases. Understanding these processes will inform forest management as climate warms.

Urbanization is a global trend marked by increasing homogenization of the landscape; imagine the cookie cutter properties that characterize ‘suburbia’. Understanding landscape homogenization will help predict the impacts of urban land use change and its effects on carbon storage and nitrogen pollution, on multiple spatial scales.

Groffman was a Convening Lead Author for the third National Climate Assessment Chapter on Ecosystems, Biodiversity and Ecosystem Services.

Groffman is also a Professor at the City University of New York Advanced Science Research Center at the Graduate Center and the Brooklyn College Department of Earth and Environmental Sciences.

Relationships between microbial biomass and dissipation of 2,4-D and dicamba in soil
Voos, G. V., and Peter M. Groffman. 1997. “Relationships Between Microbial Biomass And Dissipation Of 2,4-D And Dicamba In Soil”. Biol. Fertil. Soils 24: 106-110.
Water quality functions of riparian forest buffers in Chesapeake Bay watersheds
Lowrance, R.R., L.S. Altier, J.D. Newbold, R.R. Schnabel, Peter M. Groffman, J.M. Denver, D.L. Correll, et al. 1997. “Water Quality Functions Of Riparian Forest Buffers In Chesapeake Bay Watersheds”. Environ. Manage 21: 687-712.
Contaminant effects on microbial functions in riparian buffer zones
Groffman, Peter M. 1997. “Contaminant Effects On Microbial Functions In Riparian Buffer Zones”. In N. E. Haycock, T. Burt, K. Goulding, And G. Pinay (Eds.). Buffer Zones: Their Processes And Potential In Water Protection, 83-92. Quest Environmental, Harpenden, United Kingdom.
Ecological constraints on the ability of precision agriculture to improve the environmental performance of agricultural production systems
Groffman, Peter M. 1997. “Ecological Constraints On The Ability Of Precision Agriculture To Improve The Environmental Performance Of Agricultural Production Systems”. In Precision Agriculture: Spatial And Temporal Variability Of Environmental Quality. Ciba Foundation Symposium 210., 52-64. J. Wiley and Sons, Inc., Chichester.
Denitrification in red maple wetlands: influence of site quality and relationships with wetland delineation protocols
Groffman, Peter M., and G. C. Hanson. 1997. “Denitrification In Red Maple Wetlands: Influence Of Site Quality And Relationships With Wetland Delineation Protocols”. Soil Sci. Soc. Am. J. 61: 323-329.
Integration of species and ecosystem approaches to conservation
Tartowski, S.L., E.B. Allen, N.E. Barrett, Alan R. Berkowitz, R.K. Colwell, Peter M. Groffman, J. Harte, et al. 1997. “Integration Of Species And Ecosystem Approaches To Conservation”. In S. T. A. Pickett, R. S. Ostfeld, M. Shachak, And G. E. Likens (Eds.). The Ecological Basis Of Conservation: Heterogeneity, Ecosystems, And Biodiversity, 187-192. Chapman & Hall, Inc., New York.
Dissipation of 2,4-D and dicamba in a heterogeneous landscape
Voos, G. V., and Peter M. Groffman. 1997. “Dissipation Of 2,4-D And Dicamba In A Heterogeneous Landscape”. Appl. Soil Ecol. 5: 181-187.
Earthworm activity and nitrogen mineralization rates along an urban-rural land use gradient
Steinberg, D. A., Richard V. Pouyat, R.W. Parmelee, and Peter M. Groffman. 1997. “Earthworm Activity And Nitrogen Mineralization Rates Along An Urban-Rural Land Use Gradient”. Soil Biol. Biochem. 29: 427-430.
Bioavailability of water extractable organic carbon fractions in forest and agricultural soil profiles
Boyer, J. N., and Peter M. Groffman. 1996. “Bioavailability Of Water Extractable Organic Carbon Fractions In Forest And Agricultural Soil Profiles”. Soil Biol. Biochem. 28: 783-790.
Grass species and soil type effects on microbial biomass and activity
Groffman, Peter M., P. Eagan, W.M. Sullivan, and J.L. Lemunyon. 1996. “Grass Species And Soil Type Effects On Microbial Biomass And Activity”. Plant Soil 183: 61-67.
Litter as a regulator of nitrogen and carbon dynamics in macrophytic patches in Negev desert soils
Zaady, Eli, Peter M. Groffman, and Moshe Shachak. 1996. “Litter As A Regulator Of Nitrogen And Carbon Dynamics In Macrophytic Patches In Negev Desert Soils”. Soil Biol. Biochem. 28: 39-46.
Microbial nitrate processing in shallow groundwater in a riparian forest
Groffman, Peter M., G. Howard, Arthur J. Gold, and W. M. Nelson. 1996. “Microbial Nitrate Processing In Shallow Groundwater In A Riparian Forest”. J. Environ. Qual. 25: 1309-1316.
Non-tidal wetlands
Öquist, M. G., B.H. Svensson, Peter M. Groffman, and M. Taylor. 1996. “Non-Tidal Wetlands”. R. T. Watson, M. C. Zinyowera, And R. H. Moss (Eds.). Climate Change 1995: Impacts, Adaptations And Mitigation Of Climate Change: Scientific-Technical Analyses. Contribution Of Working Group Ii To The Second Assessment Report Of The Intergovernmental Pan. Cambridge University Press, Cambridge and New York.
Integration of soil science in ecological research
Groffman, Peter M. 1996. “Integration Of Soil Science In Ecological Research”. In R. J. Wagenet And J. Bouma (Eds.). The Role Of Soil Science In Interdisciplinary Research, 57-66. American Society of Agronomy, Inc., Madison, Wisconsin.
Release and consumption of nitrogen from snail feces in Negev desert soils
Zaady, Eli, Peter M. Groffman, and Moshe Shachak. 1996. “Release And Consumption Of Nitrogen From Snail Feces In Negev Desert Soils”. Biol. Fertil. Soils 23: 399-405.
Variation in microbial parameters in four different wetland types
Groffman, Peter M., G. C. Hanson, E. Kiviat, and G. Stevens. 1996. “Variation In Microbial Parameters In Four Different Wetland Types”. Soil Sci. Soc. Am. J. 60: 622-629.
Carbon pools and trace gas fluxes in urban forest soils
Groffman, Peter M., Richard V. Pouyat, M.J. McDonnell, Steward T. A. Pickett, and Wayne C Zipperer. 1995. “Carbon Pools And Trace Gas Fluxes In Urban Forest Soils”. In R. Lal, J. Kimble, E. Levine, And B. A. Stewart (Eds.). Advances In Soil Science: Soil Management And Greenhouse Effect, 147-158. CRC Press, Inc., Boca Raton, Florida.
Assessment and importance of denitrification as a source of soil nitrogen loss in tropical agroecosystems
Groffman, Peter M. 1995. “Assessment And Importance Of Denitrification As A Source Of Soil Nitrogen Loss In Tropical Agroecosystems”. Fert. Res. 42: 139-148.
CH4 uptake and N availability in forest soils along an urban to rural gradient
Goldman, M. B., Peter M. Groffman, Richard V. Pouyat, M.J. McDonnell, and Steward T. A. Pickett. 1995. “Ch4 Uptake And N Availability In Forest Soils Along An Urban To Rural Gradient”. Soil Biol. Biochem. 27: 281-286.
Effects of hydrologic tracers on soil microbial activities
Groffman, Peter M., Arthur J. Gold, and G. Howard. 1995. “Effects Of Hydrologic Tracers On Soil Microbial Activities”. Soil Sci. Soc. Am. J. 59: 478-481.